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April 28, 2020 2:00pm Eastern Time / 11:00am Pacific Time
(1 PDH issued by Cummins Inc.)
Gaseous Generator Set Installation and Case StudiesPowerHour webinar series for consulting engineersExperts you trust. Excellence you count on.
2
Welcome!
Cummins PowerHour webinar series is designed to help our engineer partners to…
▪ Keep up to date on products, technology, and codes and standards development
▪ Interact with Cummins experts and gain access to ongoing technical support
▪ Participate at your convenience, live or on-demand
▪ Earn Professional Development Hours (PDH)
Technical tips:▪ Audio is available through teleconference or Zoom application.
▪ Attendees are in “listen only” mode throughout the event.
▪ Use the Zoom Q&A Panel to submit questions, comments, and
feedback throughout the event. Time is allotted at the end of the
PowerHour to address Q&A.
▪ If the audio connection is lost, disconnected or experiences
intermittent connectivity issues, please check your audio connection
through the "Join Audio" or "Audio Connectivity" button at the bottom
left of the Zoom application.
▪ Report technical issues using the Zoom Q&A Panel.
3
Meet your panelists
Michael Sanford
Technical Marketing Specialist
Cummins Inc.
Cummins instructor: Cummins facilitator:
Chad Hale
Technical Marketing Specialist
Cummins Inc.
Your local Cummins contacts:
➢ AZ, ID, NM, NV: Carl Knapp ([email protected])
➢ CO, MT, ND, UT, WY: Christopher Scott ([email protected])
➢ CA, WA, OR, AK, HI: Brian Pumphrey ([email protected])
➢ MA, ME, NH, RI, VT: Jim Howard ([email protected])
➢ CT, MD, NJ, NY : Charles Attisani ([email protected])
➢ Northern IL, MI : John Kilinskis ([email protected])
➢ NE, SD, KS: Earnest Glaser ([email protected])
➢ IL, IN, KY, MO: Jeff Yates ([email protected])
➢ IA, MO: Kirby Holden ([email protected])
➢ DE, MD, MN, ND, OH, PA, WI, WV: Michael Munson ([email protected])
➢ TX: Scott Thomas ([email protected])
➢ OK, AR: Wes Ruebman ([email protected])
➢ LA, MS, AL: Trina Casbon ([email protected])
➢ TN, GA: Mariano Rojas ([email protected])
➢ FL: Bob Kelly ([email protected])
➢ NC, SC, VA: Bill Morris ([email protected])
➢ Canada: Ian Lindquist ([email protected])
4
Disclaimer
The views and opinions expressed in this
course shall not be considered the official
position of any regulatory organization and
shall not be considered to be, nor be relied
upon as, a Formal Interpretation.
Participants are encouraged to refer to the
entire text of all referenced documents. In
addition, when it doubt, reach out to the
Authority Having Jurisdiction.
5
Course Objectives
Gaseous Generator Set Installation and Case Studies
The specification and installation of gaseous generator sets continues to grow in North America in both emergency and non-emergency applications. Although the installation requirements differ only minimally from their diesel counterparts, it is important to understand the basics of gaseous generator sets to ensure they are specified appropriately. This course will explore a number of unique installations that feature gaseous generator sets and will highlight the need for gaseous fuel sources in these applications.
After completing this course, participants will be able to:
• List the basic installation requirements of gaseous generator sets.
• Recognize the broad range of capability of gaseous generator sets.
• Describe potential challenges and advantages of gaseous generator set installations.
6
What are some of the key installation
requirements of natural gas generator
sets?
7
Gaseous Generator SetsFuel Supply Basics
Primary factors impacting gaseous fuel system installations:
8
Gaseous Generator SetsFuel Supply Basics
Primary factors impacting gaseous fuel system installations:
1. The gas supplied to the generator set must be of acceptable quality.
9
Gaseous Generator SetsFuel Supply Basics
Primary factors impacting gaseous fuel system installations:
1. The gas supplied to the generator set must be of acceptable quality.
2. The gas supplied to the generator set must be of sufficient pressure.
10
Gaseous Generator SetsFuel Supply Basics
Primary factors impacting gaseous fuel system installations:
1. The gas supplied to the generator set must be of acceptable quality.
2. The gas supplied to the generator set must be of sufficient pressure.
3. The gas supplied to the generator set must be available in sufficient volume.
11
Gaseous Generator SetsFuel Supply Basics
Primary factors impacting gaseous fuel system installations:
1. The gas supplied to the generator set must be of acceptable quality.
2. The gas supplied to the generator set must be of sufficient pressure.
3. The gas supplied to the generator set must be available in sufficient volume.
12
Gaseous Generator SetsFuel Supply Basics - Quality
Category Also Known As BTU
Conventional
Natural Gas
Pipeline Gas, Standard Gas High
Associated Petroleum Gas (APG) High
Flare Gas, Field Gas High
Associated-Dissolved Gas (ADG) High
Wellhead Gas High
Unconventional
Natural Gas
Coal Bed Methane (CBM) High
Coal Mine Methane (CMM) ~Low
Biogas
Anaerobic Digester Gas (ADG) Low
Wastewater Treatment Plant Gas Low
Syngas Synthesis Gas, Pyrolysis Gas Very Low
Industrial Gas Town Gas Very Low
13
Gaseous Generator SetsFuel Supply Basics - Quality
Category Also Known As BTU
Conventional
Natural Gas
Pipeline Gas, Standard Gas High
Associated Petroleum Gas (APG) High
Flare Gas, Field Gas High
Associated-Dissolved Gas (ADG) High
Wellhead Gas High
Unconventional
Natural Gas
Coal Bed Methane (CBM) High
Coal Mine Methane (CMM) ~Low
Biogas
Anaerobic Digester Gas (ADG) Low
Wastewater Treatment Plant Gas Low
Syngas Synthesis Gas, Pyrolysis Gas Very Low
Industrial Gas Town Gas Very Low
14
Gaseous Generator SetsFuel Supply Basics - Quality
Category Also Known As BTU
Conventional
Natural Gas
Pipeline Gas, Standard Gas High
Associated Petroleum Gas (APG) High
Flare Gas, Field Gas High
Associated-Dissolved Gas (ADG) High
Wellhead Gas High
Unconventional
Natural Gas
Coal Bed Methane (CBM) High
Coal Mine Methane (CMM) ~Low
Biogas
Anaerobic Digester Gas (ADG) Low
Wastewater Treatment Plant Gas Low
Syngas Synthesis Gas, Pyrolysis Gas Very Low
Industrial Gas Town Gas Very Low
15
Gaseous Generator SetsFuel Supply Basics - Quality
16
Gaseous Generator SetsFuel Supply Basics - Quality
17
Gaseous Generator SetsFuel Supply Basics - Quality
Spec Note Generator set manufacturer shall provide
documentation indicating product performance at a specified fuel
energy content or range based on site fuel sample analysis.
18
Gaseous Generator SetsFuel Supply Basics - Quality
Methane Index Number (MN)
▪ Defines likelihood of a fuel to auto-ignite
▪ Scale of 0-100
19
Gaseous Generator SetsFuel Supply Basics - Quality
Methane Index Number (MN)
▪ Defines likelihood of a fuel to auto-ignite
▪ Scale of 0-100
• Higher MN may be less likely to auto-ignite (knock) and may be suitable for high power density applications.
• Lower MN may be more likely to auto-ignite (knock) and may require power derate and/or timing changes.
20
Gaseous Generator SetsFuel Supply Basics - Quality
Methane Index Number (MN)
▪ Defines likelihood of a fuel to auto-ignite
▪ Scale of 0-100
• Higher MN may be less likely to auto-ignite (knock) and may be suitable for high power density applications.
• Lower MN may be more likely to auto-ignite (knock) and may require power derate and/or timing changes.
▪ High quality pipeline natural gas is typically 80-90 MN.
21
Gaseous Generator SetsFuel Supply Basics - Quality
Methane Index Number (MN)
▪ Defines likelihood of a fuel to auto-ignite
▪ Scale of 0-100
• Higher MN may be less likely to auto-ignite (knock) and may be suitable for high power density applications.
• Lower MN may be more likely to auto-ignite (knock) and may require power derate and/or timing changes.
▪ High quality pipeline natural gas is typically 80-90 MN.
Spec Note Generator set manufacturer shall provide documentation indicating product
performance at a specified Methane Number or range based on site fuel sample analysis.
22
Gaseous Generator SetsFuel Supply Basics - Quality
Methane Index Number (MN)
▪ Defines likelihood of a fuel to auto-ignite
▪ Scale of 0-100
• Higher MN may be less likely to auto-ignite (knock) and may be suitable for high power density applications.
• Lower MN may be more likely to auto-ignite (knock) and may require power derate and/or timing changes.
▪ High quality pipeline natural gas is typically 80-90 MN.
Spec Note Generator set manufacturer shall provide documentation indicating product
performance at a specified Methane Number or range based on site fuel sample analysis.
23
Gaseous Generator SetsFuel Supply Basics - Pressure
▪ Pressure and volume must be available at
RATED load.
▪ Be aware of fuel system pressure drop.
▪ Booster may be installed to raise pressure, if
needed.
▪ Consult generator set manufacturer for specific
fuel system requirements.
24
Gaseous Generator SetsFuel Supply Basics - Pressure
▪ Pressure and volume must be available at
RATED load.
▪ Be aware of fuel system pressure drop.
▪ Booster may be installed to raise pressure, if
needed.
▪ Consult generator set manufacturer for specific
fuel system requirements.
25
Gaseous Generator SetsFuel Supply Basics - Pressure
▪ Pressure and volume must be available at
RATED load.
▪ Be aware of fuel system pressure drop.
▪ Booster may be installed to raise pressure, if
needed.
▪ Consult generator set manufacturer for specific
fuel system requirements.
Spec Note Generator set manufacturer shall provide documentation
indicating minimum fuel pressure at engine inlet at rated load.
26
Gaseous Generator SetsFuel Supply Basics - Pressure
▪ Pressure and volume must be available at
RATED load.
▪ Be aware of fuel system pressure drop.
▪ Booster may be installed to raise pressure, if
needed.
▪ Consult generator set manufacturer for specific
fuel system requirements.
Spec Note Generator set manufacturer shall provide documentation
indicating minimum fuel pressure at engine inlet at rated load.
Gaseous Fuel System Sizing
T-030: Liquid-Cooled Generator Set
Application Manual
T-035: Gas Power Plant Application Manual
Related
Content
27
Gaseous Generator SetsFuel Supply Basics – Volume
28
Gaseous Generator SetsFuel Supply Basics – Volume
29
Gaseous Generator SetsFuel Supply Basics – Volume
30
Gaseous Generator SetsFuel Supply Basics – Volume
Spec Note Generator set manufacturer shall provide documentation
indicating maximum fuel consumption at rated load.
31
Concept Check
Three key factors impacting gaseous generator set installation include:
a) Gas Supply Pressure
b) Gas Supply Volume
c) Gas Supply Quality
d) All of the Above
32
Concept Check
Three key factors impacting gaseous generator set installation include:
a) Gas Supply Pressure
b) Gas Supply Volume
c) Gas Supply Quality
d) All of the Above
33
Gaseous Generator SetsInstallation Considerations
▪ Natural gas is available through extensive
and reliable pipeline network.
▪ Natural gas pipeline avoids fuel
transportation, handling and storage issues
associated with on-site fuel storage.
▪ No fuel tank cleaning required.
▪ Limited degradation of fuel over time.
▪ No requirement for regular fuel testing.
▪ Can be easily backed-up with on-site fuel
storage (LNG or LPG).
34
Gaseous Generator SetsInstallation Considerations
▪ Natural gas is available through extensive
and reliable pipeline network.
▪ Natural gas pipeline avoids fuel
transportation, handling and storage issues
associated with on-site fuel storage.
▪ No fuel tank cleaning required.
▪ Limited degradation of fuel over time.
▪ No requirement for regular fuel testing.
▪ Can be easily backed-up with on-site fuel
storage (LNG or LPG).
Considerations for Specifying Generator
Set Fuel Sources
On-Demand PowerHour Recording
Related
Content
35
Gaseous Generator SetsCompliance and Reliability
NFPA 110-2019
5.1.1 The following energy sources shall be
permitted to be used for the emergency
power supply (EPS):
(1) Liquid petroleum products…
(2) Liquified petroleum gas…
(3) Natural or synthetic gas
Reprinted with permission from NFPA 110-2016, Standard for Emergency and Standby Power Systems, Copyright © 2015, National Fire Protection Association, Quincy, MA. This reprinted material is
not the complete and official position of the NFPA on the referenced subject, which is represented only by the standard in its entirety which can be obtained through the NFPA web site at www.nfpa.org.
36
Gaseous Generator SetsCompliance and Reliability
NFPA 110-2019
5.1.1 The following energy sources shall be
permitted to be used for the emergency
power supply (EPS):
(1) Liquid petroleum products…
(2) Liquified petroleum gas…
(3) Natural or synthetic gas
Exception: For Level 1 installations in locations where the
probability of interruption of off-site fuel supplies is high, on-site
storage of an alternate energy source sufficient to allow full
output of the EPSS to be delivered for the class specified shall
be required, with the provision for automatic transfer from the
primary energy source to the alternate energy source.
Reprinted with permission from NFPA 110-2016, Standard for Emergency and Standby Power Systems, Copyright © 2015, National Fire Protection Association, Quincy, MA. This reprinted material is
not the complete and official position of the NFPA on the referenced subject, which is represented only by the standard in its entirety which can be obtained through the NFPA web site at www.nfpa.org.
37
Gaseous Generator SetsCompliance and Reliability
Natural Gas Council
Natural gas is a secure, reliable and resilient
choice for customers
▪ Operational reliability
• 2017 survey of 51 interstate pipelines –
99.97% of contractual commitments
• Geographic dispersion of production
reduces vulnerability to local weather
• Transportation network interconnected,
offering multiple pathways for rerouting
▪ Contractual continuity of service
• Firm or interruptible contracts
NFPA 110-2019
5.1.1 The following energy sources shall be
permitted to be used for the emergency
power supply (EPS):
(1) Liquid petroleum products…
(2) Liquified petroleum gas…
(3) Natural or synthetic gas
Exception: For Level 1 installations in locations where the
probability of interruption of off-site fuel supplies is high, on-site
storage of an alternate energy source sufficient to allow full
output of the EPSS to be delivered for the class specified shall
be required, with the provision for automatic transfer from the
primary energy source to the alternate energy source.
Reprinted with permission from NFPA 110-2016, Standard for Emergency and Standby Power Systems, Copyright © 2015, National Fire Protection Association, Quincy, MA. This reprinted material is
not the complete and official position of the NFPA on the referenced subject, which is represented only by the standard in its entirety which can be obtained through the NFPA web site at www.nfpa.org.
38
Gaseous Generator SetsCompliance and Reliability
39
Gaseous Generator SetsCompliance and Reliability
Spec Note Specify natural-gas fueled generator sets for emergency power systems
where permitted by the local Authority Having Jurisdiction.
40
Gaseous Generator SetsApplications and Capability
41
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
▪ 1500 kWe Installed Capacity
▪ Extended Run Time with Limited On-Site Storage Capacity
▪ NFPA 110 Type 10 Starting
▪ 100% Nameplate Load Acceptance
42
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
▪ 1500 kWe Installed Capacity
▪ Extended Run Time with Limited On-Site Storage Capacity
▪ NFPA 110 Type 10 Starting
▪ 100% Nameplate Load Acceptance
EPA Certified stationary non-emergency.
Capable of extended grid paralleling.
EPA Emissions and Air Permitting
On-Demand PowerHour Recording
Related
Content
43
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
▪ 1500 kWe Installed Capacity
▪ Extended Run Time with Limited On-Site Storage Capacity
▪ NFPA 110 Type 10 Starting
▪ 100% Nameplate Load Acceptance
Large single generator set or
multiple paralleled units.
Paralleling Power System Design and
System Level Control
On-Demand PowerHour Recording
Related
Content
EPA Certified stationary non-emergency.
Capable of extended grid paralleling.
44
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
▪ 1500 kWe Installed Capacity
▪ Extended Run Time with Limited On-Site Storage Capacity
▪ NFPA 110 Type 10 Starting
▪ 100% Nameplate Load Acceptance
On-site fuel storage limits
usage of diesel generator sets.
Large single generator set or
multiple paralleled units.
EPA Certified stationary non-emergency.
Capable of extended grid paralleling.
45
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
▪ 1500 kWe Installed Capacity
▪ Extended Run Time with Limited On-Site Storage Capacity
▪ NFPA 110 Type 10 Starting
▪ 100% Nameplate Load Acceptance
On-site fuel storage limits
usage of diesel generator sets.
Large single generator set or
multiple paralleled units.
Challenging for some spark-
ignited engines.
NFPA 110 Type 10 Requirements for
Emergency Power Systems
On-Demand PowerHour Recording
Related
Content
EPA Certified stationary non-emergency.
Capable of extended grid paralleling.
46
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
▪ 1500 kWe Installed Capacity
▪ Extended Run Time with Limited On-Site Storage Capacity
▪ NFPA 110 Type 10 Starting
▪ 100% Nameplate Load Acceptance
On-site fuel storage limits
usage of diesel generator sets.
Challenging for some spark-
ignited engines.
Large single generator set or
multiple paralleled units.
Challenging for some spark-
ignited engines.
An Introduction to Generator Set Sizing
Software
On-Demand PowerHour Recording
Related
Content
EPA Certified stationary non-emergency.
Capable of extended grid paralleling.
47
Gaseous Generator SetsInstallation Review
48
Gaseous Generator SetsInstallation Review
2 x Cummins C650N6 DR
750 kWe Standby
650 kWe Demand Response
On-Board Paralleling Controls
49
Gaseous Generator SetsInstallation Review
Cummins Digital Master Control
Main-Tie-Main System Topology
Extended Utility Paralleling
Allen Bradley PLC
2 x Cummins C650N6 DR
750 kWe Standby
650 kWe Demand Response
On-Board Paralleling Controls
50
Gaseous Generator SetsInstallation Review
Application: Standby and Demand Response
Segment: Wastewater Treatment Plant
Location: Wisconsin, US
Key Acceptance Criteria
✓ 1500 kWe Installed Capacity
✓ Extended Run Time with Limited On-Site Storage Capacity
✓NFPA 110 Type 10 Starting
✓ 100% Nameplate Load Acceptance
Case Studies
Case Study Library
Related
Content
51
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
▪ NFPA 110 Type 10 Starting for Life Safety Loads
▪ Extended Run Time (>24 Hours)
▪ Operational Flexibility
52
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
▪ NFPA 110 Type 10 Starting for Life Safety Loads
▪ Extended Run Time (>24 Hours)
▪ Operational Flexibility
High operating cost to power optional
loads throughout extended outage.
Considerations for Specifying Generator
Set Fuel Sources
On-Demand PowerHour Recording
Related
Content
53
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
▪ NFPA 110 Type 10 Starting for Life Safety Loads
▪ Extended Run Time (>24 Hours)
▪ Operational Flexibility
Operational reliability needs limit
reliance on fuel storage and delivery.
High operating cost to power optional
loads throughout extended outage.
Considerations for Specifying Generator
Set Fuel Sources
On-Demand PowerHour Recording
Related
Content
54
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
▪ NFPA 110 Type 10 Starting for Life Safety Loads
▪ Extended Run Time (>24 Hours)
▪ Operational Flexibility
EPA Certified stationary non-emergency.
Capable of extended grid paralleling.
Operational reliability needs limit
reliance on fuel storage and delivery.
High operating cost to power optional
loads throughout extended outage.
EPA Emissions and Air Permitting
On-Demand PowerHour Recording
Related
Content
55
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
✓NFPA 110 Type 10 Starting for Life Safety Loads
▪ Extended Run Time (>24 Hours)
▪ Operational Flexibility
1 x Cummins DQKAD
1750 kWe Standby
On-Board Paralleling Controls
56
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
✓NFPA 110 Type 10 Starting for Life Safety Loads
✓ Extended Run Time (>24 Hours)
✓Operational Flexibility
1 x Cummins DQKAD
1750 kWe Standby
On-Board Paralleling Controls
4 x Cummins C1750N6CB
1750 kWe Continuous
On-Board Paralleling Controls
57
Gaseous Generator SetsInstallation Review
Application: Standby and Hurricane Relief
Segment: Medical Center (763 Licensed Beds)
Location: Louisiana, US
Key Acceptance Criteria
✓NFPA 110 Type 10 Starting for Life Safety Loads
✓ Extended Run Time (>24 Hours)
✓Operational Flexibility
1 x Cummins DQKAD
1750 kWe Standby
On-Board Paralleling Controls
4 x Cummins C1750N6CB
1750 kWe Continuous
On-Board Paralleling Controls
Case Study
Related
Content
58
Concept Check
When recommending the preferred fuel source for on-site power generation, which of the following project or site requirements should be considered?
a) NFPA 110 Type requirements (Life Safety loads)
b) Extended outage operation
c) Operational flexibility (non-emergency usage)
d) On-site fuel storage limitations
e) All of the above
59
Concept Check
When recommending the preferred fuel source for on-site power generation, which of the following project or site requirements should be considered?
a) NFPA 110 Type requirements (Life Safety loads)
b) Extended outage operation
c) Operational flexibility (non-emergency usage)
d) On-site fuel storage limitations
e) All of the above
60
Course Summary
Gaseous Generator Set Installation and Case Studies
▪ List the basic installation requirements of gaseous generator sets.
▪ Recognize the broad range of capability of gaseous generator sets.
▪ Describe potential challenges and advantages of gaseous generator set installations.
Specify:
▪ Project performance requirements based on the application limitations (loads, power factor, transient
limits, emissions, start-time and other code-driven requirements).
▪ Gaseous generator sets in emergency and non-emergency applications when appropriate and
permitted by the authority having jurisdiction.
61
Additional Resources
Cummins White Papers
▪ Understanding EPA NSPS Emissions Regulations for Stationary Spark-ignited Engines
▪ The Latest Evolution Of Distributed Energy Resources: Opportunity For Business Within The PJM
Cummins PowerHour On-Demand Webinars
▪ Considerations for Specifying Generator Set Fuel Sources
▪ Specifying Gaseous Generator Sets
▪ Lean Burn Natural Gas Generator Sets in Standby-Peak Shaving Applications
▪ Introduction to Generator Set Sizing Software
▪ EPA Emissions and Air Permitting
62
Q&APlease type your questions, comments and feedback in the Zoom Q&A window.
After the PowerHour, a complete list of questions and answers will be published on powersuite.cummins.com.
Your local Cummins contacts:
➢ AZ, ID, NM, NV: Carl Knapp ([email protected])
➢ CO, MT, ND, UT, WY: Christopher Scott ([email protected])
➢ CA, WA, OR, AK, HI: Brian Pumphrey ([email protected])
➢ MA, ME, NH, RI, VT: Jim Howard ([email protected])
➢ CT, MD, NJ, NY : Charles Attisani ([email protected])
➢ Northern IL, MI : John Kilinskis ([email protected])
➢ NE, SD, KS: Earnest Glaser ([email protected])
➢ IL, IN, KY, MO: Jeff Yates ([email protected])
➢ IA, MO: Kirby Holden ([email protected])
➢ DE, MD, MN, ND, OH, PA, WI, WV: Michael Munson ([email protected])
➢ TX: Scott Thomas ([email protected])
➢ OK, AR: Wes Ruebman ([email protected])
➢ LA, MS, AL: Trina Casbon ([email protected])
➢ TN, GA: Mariano Rojas ([email protected])
➢ FL: Bob Kelly ([email protected])
➢ NC, SC, VA: Bill Morris ([email protected])
➢ Canada: Ian Lindquist ([email protected])
Michael Sanford
Technical Marketing Specialist
Cummins Inc.
Chad Hale
Technical Marketing Specialist
Cummins Inc.
63
Q&APlease type your questions, comments and feedback in the Zoom Q&A window.
After the PowerHour, a complete list of questions and answers will be published on powersuite.cummins.com.
Please complete the brief survey before exiting the webinar!
Your local Cummins contacts:
➢ AZ, ID, NM, NV: Carl Knapp ([email protected])
➢ CO, MT, ND, UT, WY: Christopher Scott ([email protected])
➢ CA, WA, OR, AK, HI: Brian Pumphrey ([email protected])
➢ MA, ME, NH, RI, VT: Jim Howard ([email protected])
➢ CT, MD, NJ, NY : Charles Attisani ([email protected])
➢ Northern IL, MI : John Kilinskis ([email protected])
➢ NE, SD, KS: Earnest Glaser ([email protected])
➢ IL, IN, KY, MO: Jeff Yates ([email protected])
➢ IA, MO: Kirby Holden ([email protected])
➢ DE, MD, MN, ND, OH, PA, WI, WV: Michael Munson ([email protected])
➢ TX: Scott Thomas ([email protected])
➢ OK, AR: Wes Ruebman ([email protected])
➢ LA, MS, AL: Trina Casbon ([email protected])
➢ TN, GA: Mariano Rojas ([email protected])
➢ FL: Bob Kelly ([email protected])
➢ NC, SC, VA: Bill Morris ([email protected])
➢ Canada: Ian Lindquist ([email protected])
Michael Sanford
Technical Marketing Specialist
Cummins Inc.
Chad Hale
Technical Marketing Specialist
Cummins Inc.
64
Closing
Watch out for a follow-up email including:
▪ A link to the webinar recording and copy of the presentation
▪ A certificate issuing one professional development hour (1 PDH)
Visit powersuite.cummins.com for:
▪ Sizing and specification development tools
▪ PowerHour webinar recordings, presentations and FAQ
▪ Additional Cummins continuing education programs
Visit cummins.com/energy-iq and sign-up for communications to:
▪ Receive energy insights
▪ Read about energy technologies and trends
Please contact Michael Sanford if you have any questions related to the PowerHour webinar
Upcoming PowerHour Webinars:
▪ Considerations for Specifying
Generator Set Fuel Sources, May 20
▪ The Role of a System Level Control in
a Power System, May 21
▪ Ensuring Power System Reliability
through Service Specifications, June
6565